Abstract
As per the machining context, a cutter or cutting tool is mainly used to remove the material from the workpiece by using the process of shear deformation. Cutting tools that are used for this process must be made up of hard material than the materials, and the tool must cope up with the heat that is generated during this cutting process. Along with this, cutting tools must withstand with increased temperature and bigger mechanical loads. As sometimes the temperature during the cutting procedure reaches more than 700 °C. In the present work, an attempt has been made to investigate the chip reduction coefficient (CRC) at different parametric setting. The X-750 nickel alloy is processed with ceramic tool at different settings of depth of cut, feed and rotational speed. It has been observed that out of all the parameters, the depth of cut significantly affect the CRC in the machining of X-750 nickel alloy. The CRC value decreases with increase in rotational speed and feed. However, the value of CRC increase with the increase in depth of cut.
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